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Page 30
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2022. Use of Unmanned Aerial Systems for Highway Construction. Washington, DC: The National Academies Press. doi: 10.17226/26546.
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Page 30
Page 31
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2022. Use of Unmanned Aerial Systems for Highway Construction. Washington, DC: The National Academies Press. doi: 10.17226/26546.
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Page 31

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30 References Beal, F. (2017). Unmanned Aerial Vehicle (UAV) Mapping Demonstration. Montana Department of Transportation, Helena, https://www.mdt.mt.gov/other/webdata/external/Research/DOCS/RESEARCH_PROJ/UAV/ REF_MAT/MAP_DEMO.pdf. Brooks, C., R. Dobson, D. Banach, T. Oommen, K. Zhang, T. Mukherjee, T. Havens, T. Ahlborn, R. Ahlborn, R. Escobar-Wolf, C. Bhat, S. Zhao, Q. Lyu, and N. Marion. (2018). Implementation of Unmanned Aerial Vehicles (UAVs) for Assessment of Transportation Infrastructure—Phase II. Michigan Department of Trans- portation, Lansing. Brooks, C. N., R. J. Dobson, D. B. Dean, D. Banach, T. Oommen, T. C. Havens, T. M. Ahlborn, S. J. Cook, and A. Clover. (2014). Evaluating the Use of Unmanned Aerial Vehicles for Transportation Purposes: A Michigan Demonstration. 21st World Congress on Intelligent Transport Systems, ITSWC 2014: Reinventing Transportation in Our Connected World. Michigan Department of Transportation, Lansing. Burgett, J., D. Bausman, and G. Comert. (2019). Unmanned Aircraft Systems Impact on Operational Efficiency and Connectivity Final Report. South Carolina Department of Transportation, Columbia. Dorafshan, S., M. Maguire, N. V. Hoffer, and C. Coopmans. (2017). Fatigue Crack Detection Using Unmanned Aerial Systems in Under-Bridge Inspection. Idaho Transportation Department, Boise. DroneDeploy. (2018). The Rise of Drones in Construction. Retrieved from https://www.dronedeploy.com/blog/ rise-drones-construction/. Accessed on April 29, 2020. Eyerman, J., B. Mooring, and M. Catlow. (2018). Low-Light Collision Scene Reconstruction Using Unmanned Aerial Systems. North Carolina Department of Transportation, Raleigh. Gillins, D., C. Parrish, and M. Gillins. (2016). Cost-Effective Bridge Safety Inspections Using Unmanned Aerial Vehicles (UAVs). Pacific Northwest Transportation Consortium (PacTrans), U.S. DOT University Transpor- tation Center for Federal Region 10, University of Washington, Seattle, Washington. Gillins, D., C. Parrish, M. Gillins, and C. Simpson. (2018). Eyes in the Sky: Bridge Inspections with Unmanned Aerial Vehicles. Oregon Department of Transportation, Salem, https://www.oregon.gov/ODOT/Programs/ ResearchDocuments/SPR787_Eyes_in_the_Sky.pdf. Gray, J. M., H. Mitasova, R. Austin, and G. Blank. (2020). Final Report: UAS Roadmap. North Carolina Department of Transportation, Raleigh. Hubbard, S., and B. Hubbard. (2020). Investigation of Strategic Deployment Opportunities for Unmanned Aerial Systems (UAS) at INDOT. Indiana Department of Transportation, Indianapolis. Hurwitz, D., M. Olsen, and Z. Barlow. (2018). Driving Distraction Due to Drones. Oregon Department of Trans- portation, Salem, https://www.oregon.gov/ODOT/Programs/ResearchDocuments/Driving_Distraction_ due_to_Drones.pdf. Irizarry, J., and E. Johnson. (2019). Field-Test-Based Guideline Development for the Integration of Unmanned Aerial Systems (UASs) in GDOT Operations. Georgia Department of Transportation, Atlanta. JBKnowledge. (2017). The 6th Annual Construction Technology Report. JBK Consulting LLC, Bryan, Tex. JBKnowledge. (2019). The 8th Annual Construction Technology Report. JBK Consulting LLC, Bryan, Tex. Kamga, C., J. Sapphire, Y. Cui, B. Moghimidarzi, and D. Khryashchev. (2017). Exploring Applications for Unmanned Aerial Systems and Unmanned Ground Systems in Enhanced Incident Management, Bridge Inspection, and Other Transportation-Related Operations. University Transportation Research Center, New York State Department of Transportation, Albany, http://www.utrc2.org/sites/default/files/Final-Report- Exploring-Applications-Unmanned-Aerial-Systems.pdf. Lercel, D., R. Steckel, and J. Pestka. (2018). Unmanned Aircraft Systems: An Overview of Strategies and Oppor- tunities for Missouri. Missouri Department of Transportation, Jefferson City. Lovelace, B., and J. Zink. (2015). Unmanned Aerial Vehicle Bridge Inspection Demonstration Project. Minnesota Department of Transportation, Saint Paul.

References 31   Mallela, J., P. Wheeler, B. Sankaran, C. Choi, E. Gensib, R. Tetreault, and D. Hardy. (2021). Integration of UAS into Operations Conducted by New England Departments of Transportation—Develop Implementation Procedures for UAS Applications (Task 4 Report). New England Transportation Consortium. McGuire, M., M. Rys, and A. Rys. (2016). A Study of How Unmanned Aircraft Systems Can Support the Kansas Department of Transportation’s Efforts to Improve Efficiency, Safety, and Cost Reduction. Kansas Department of Transportation, Topeka, https://trid.trb.org/view/1420349. O’Neil-Dunne, J., and E. Estabrook. (2019). The Integration of Unmanned Aircraft Systems to Increase Safety and Decrease Costs of Transportation Projects and Related Tasks. New Hampshire Department of Transportation, Concord. Otero, L., N. Gagliardo, D. Dalli, W. Huang, and P. Cosentino. (2015). Proof of Concept for Using Unmanned Aerial Vehicles for High Mast Pole and Bridge Inspections. Final Report. Florida Department of Transportation, Tallahassee. Plotnikov, M., D. Ni, and D. Price. (2019). The Application of Unmanned Aerial Systems in Surface Transportation— Volume II-A: Development of a Pilot Program to Integrate UAS Technology to Bridge and Rail Inspections. Massachusetts Department of Transportation, Boston. Stevens, C., and T. Blackstock. (2017). Demonstration of Unmanned Aircraft Systems Use for Traffic Incident Management (UAS-TIM): Final Report. Texas A&M Transportation Institute, https://static.tti.tamu.edu/tti. tamu.edu/documents/PRC-17-69-F.pdf. Wells, J., and B. Lovelace. (2018). Improving the Quality of Bridge Inspections Using Unmanned Aircraft Systems (UAS). Minnesota Department of Transportation, Saint Paul, https://www.dot.state.mn.us/research/reports/ 2018/201826.pdf.

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In the last decade, new technologies have transformed all stages of highway construction as more industry stakeholders have begun incorporating new technologies into their daily construction activities.

The TRB National Cooperative Highway Research Program's NCHRP Synthesis 578: Use of Unmanned Aerial Systems for Highway Construction documents the use of Unmanned Aircraft Systems (UAS) by state departments of transportation (DOTs) during highway construction, identifies potential benefits and obstacles DOTs face when implementing UAS in highway construction projects, and identifies information gaps to be filled that could enable state DOTs to enhance the benefits of UAS for construction-related operations.

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